Circadian changes of the blood pressure and heart rate in elderly normotensive bedridden patients with severe dementia of the Alzheimer type (group D) were compared with those in elderly normotensive bedridden patients without dementia (group R), normotensive subjects with normal daily activity (group N), and hypertensive patients with normal daily activity (group H). In groups R, N, and H, the blood pressure increased in the afternoon and decreased at midnight; in group D, however, although it increased in the afternoon, it did not decrease at night. The circadian changes of the heart rate were similar in all four groups, showing maxima in the afternoon and minima at midnight. Thus, a specific alteration was found in the circadian rhythm of the blood pressure in patients with Alzheimer-type dementia.
Spectral analysis of heart rate fluctuation was evaluated before and after administration of carteolol, a non-selective beta-adrenoceptor-blocker, to investigate the neural regulatory mechanisms underlying the haemodynamic changes induced by mental stress. Mental stress increased blood pressure and heart rate, with an increased low frequency band, and low frequency/high frequency ratio of the power spectral analysis which are indices of sympathetic activity. Carteolol did not change basal and pre-mental stress measurements of blood pressure, heart rate and spectral density. However, carteolol altered the response to mental stress with a decrease in spectral density of the low frequency band and low frequency/high frequency ratio, and an increase in the high frequency component. These results confirm that mental stress elevates blood pressure by activating the sympathetic nervous system, and suggest that blockade of the beta-adrenoceptor attenuates the pressor response by preventing the autonomic responses to mental stress.
The effect of selective salt infusion to the central nervous system on the blood pressure (BP) regulation was examined in male Wistar rats. Hypertonic NaCl (0.8 M, 1 microliter/h) was infused into the lateral ventricle concomitantly with intravenous infusion of a subpressor dose (5.4 pmol.kg-1.min-1) of angiotensin II (ANG II) or its analogues for 7 days using osmotic minipumps. The BP was not increased by intracerebroventricular infusion of NaCl alone at this dose but was significantly and consistently increased by concomitant intravenous infusion of ANG II or its analogues. The increases in the BP over the base-line values on day 7 in groups on infusions of ANG II, ANG III, and pentasarcosyl-ANG II [(Sar)5ANG II] were 29 +/- 5 mmHg (n = 9, P less than 0.05), 8 +/- 2 mmHg (n = 8, P less than 0.05), and 19 +/- 3 mmHg (n = 6, P less than 0.05), respectively. The responses to hexamethonium, prazosin, and antagonists of arginine vasopressin and ANG II were examined in separate sets of conscious and unrestrained animals that had received intracerebroventricular infusion of NaCl and intravenous infusion of ANG II for the preceding 6 days. These animals showed significantly greater depressor responses only to hexamethonium and prazosin than control. These results indicate that the pressor effect of continuous and concomitant administration of intracerebroventricular NaCl and intravenous ANG II is mainly due to activation of the sympathetic nerve function. Synergism of the effects of selective central sodium administration and a subpressor dose of ANG II in the central nervous system is suggested.
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